Project 61 · Smart Cities / Parks & Green Spaces

Smart Irrigation City Water System

Adaptive Municipal Irrigation With Graceful Fallback

Industry: Smart Cities / Parks & Green Spaces
Services: IoT Controls Analytics
TRL: 3 → 8
Duration: 5 months
Technologies: Soil moisture sensors weather integration valve control

9-zone park with sensors + valves + forecast feed — Figure 1 — Nine-zone park irrigation topology integrating sensors, valves, and weather forecast.

8-week water use, rain-aware, per-zone savings — Figure 2 — Eight-week water-use trend, rain-aware, with per-zone savings broken out.

5-tier fallback ladder + per-zone policy table — Figure 3 — Five-tier graceful-degradation fallback ladder and per-zone policy table.

Real-world Smart Irrigation City Water deployment — Figure 4 — Real-world deployment in a managed municipal park.

Project background

Municipal irrigation of parks, medians, and green belts traditionally runs on fixed schedules regardless of weather and soil conditions. The client wanted adaptive irrigation to cut water use while keeping vegetation healthy.

Challenge

Covering large distributed green spaces, handling legacy valve infrastructure, and producing schedules that remained robust even when sensors or forecasts failed.

Approach & solution

We deployed soil-moisture nodes and connected smart valves across pilot zones, fed by a controller that combines local sensing with weather forecasts. Fallback logic ensures vegetation is never starved if telemetry fails, and per-zone policies accommodate plant types.

Results & benefits

Water consumption on irrigated zones dropped meaningfully while vegetation health stayed stable or improved. The system handled sensor outages gracefully without vegetation stress.

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